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I nnovative T echnolog y for the Utilization of Coalbed Methane and Other Methane Containing Gases. Relevance. Enhancement of mine safety Reduc tion of greenhouse gas emissions Yield profit from the implementation of commercial gasoline and carbon quotas. Endurance. Reliability. - PowerPoint PPT Presentation
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Innovative Technology for the Utilization of Coalbed Methane and Other Methane Containing Gases
1. Enhancement of mine safety2. Reduction of greenhouse gas emissions 3. Yield profit from the implementation of commercial
gasoline and carbon quotas
Relevance
Endurance
Reliability
Economy
Environment
The Raw Components of Alternative Energy
This is the universal technology, allowing for the transformation of any methane containing gases into synthetic liquid fuels, in one step
Electrical energy
products
Ferroalloys
High-octane gasoline
Water
Nitrogen
Blast furnace gas
Low-solidifying components of diesel fuel
Heat/cold
Biogas
Coalbed methane
Coke fuel
CO + 2H2
Commercial products
Synthetic gas
Secondary
Associated crude oil gas
Technological Scheme
ВНУ (АБК)
C 35-50 %Н4
13, 2 Гкал/ч
Воздух
Криогенная установка 1,1 МВт
Аr
O2
Аr
N2
Топливные газы
ВВН-1500,3 МВт
C - 0 %Н 50 84
6000 м /ч3
I стадияУПКМ
0,6 МВт
CH -100 %4 85 II стадияПлазмотрон
3,0 МВт
III
2
стадия“Цеосин”
,0 МВт
Синтез-газ Бензин Аи-9312 млн. л/год
Побочные продукты
Аr
N2
H O2
инертизациявыработанногопространства
Ch 4 Выработанное пространствовыемочного участка
Вент.Штрек
Конв.Штрек
ЭнергоцентрГТЭС
8 МВт, 2 Гкал/ч13,
First Stage
Achievable technical solutions :
• increase in CH4 content by 15-20% of basic volume • stabilization of fluctuating concentrations of CH4 in output stream of gas mixture • acquisition of prepared gas for its uninterrupted use by consumers
Technological advantages:
• simplicity of hardware design • quick start and stop • smooth regulation of technological stages • continuous and periodic functioning modes • automation of entire process • term of service is 60 000 hours
Second Stage
Scheme of methane conversion using plasma and oxygen
~ U
U U Ar
CH4 + O2
Реактор
Камера смешения
Реактор
СН4 + О2
Система охлаждения
СО + Н2 1100 Сº Н2/СО=2
Блок рекуперации
Блок тонкой очистки СГ
В реактор синтеза
«Цеосин»
P=3.0 МВт I=1000 A
Jet type plasmatron, Yeosu city, South Korea
Plasma Thermal Recycling Plant
Incheon City, South Korea
Third Stage
To the block of
Synthetic gas production
Low-solidifyingComponents
Synthetic gas
Synthetic gas
Fuel gases C1-C2
Diesel fuel
High-octane
gasoline
Reactor block
compession
Gas Turbi
ne Powe
r
Plant
Free condensate
Р > 4,0 МПа
Application of the New Technology
Stages of "Zeosin" development in the production of engine fuel
Laboratory research
Demonstration plant,Novokuznetsk Experimental plant
Nizhnevartovsk
Industrial introduction «Sosnogorsky Factory»
30 000. tonn/year
320 340 360 380 400 4200
20
40
60
80
100
5
4
3
2
1
Вы
ход
и со
став
БФ
, % м
асс.
Температура реакции, оС
“Zeosin” process Elements of the "Zeosin” process carried out at the «Zeoforming» plants
Gasoline with an octane rating of 83-
95
Gasoline with an octane rating of 83-
95
I Fischer-Tropsch process Gasoline with an octane rating of 40-60
Gasoline with an octane rating of 40-60
III
syngas syngas MethanolMethanol Dimethyl ether Dimethyl ether
II “Mobil” process
Comparative Analysis of Technological Processes
Advantages of the "Zeosin" technology
• A simplified technological process of obtaining high-octane fuel • Reduction of the amount of capital investments and operational costs • More ecologically-friendly fuel, in comparison with the fuel derived using traditional methods
“Zeosin” process
Energy Centre – a Cluster of Microturbines
Microturbines: simple and reliable, complying with the principle «Switch on and Operate»
• Model numbers (KWt): 30; 65; 200; 600; 800; 1000• Wide spectrum of fuel consumption (H2S < 7%)• Operation - an autonomous, parallel with the power grid• Generation of heat and electric power (cogeneration)• Installation in clusters of up to 100 units• Extremely low emission level NOx < 9 ppmV• Lack of lubrication and cooling • Load range 0 – 100%• Energy conversion efficiency up to 92%
Features
• application of plasma torches • use of bi-functional catalysts • generation of heat (cold) and electric power • inertisation of mined out space • reduction of greenhouse gas emissions • absence of harmful emissions
Main economic indicators :• capital costs – $32 million• distribution of gasoline – $5,75 million• sale of carbon quotas– $10 million• recoupment – from 3 to 5 years
Technology Developers
ООО«МетанЭнергоРесурс»«Methane Energy Resource» LLC
Kemerovo (Russia) www.cjagroup.info
Institute of Theoretical and Applied Mechanics in the name of S.A. Christianovich
Siberian Branch of Russian Academy of Scienses Novosibirsk (Russia)
www.itam.nsc.ru
ЗАО «Сибирская технологическая компания «Цеосит» Siberian Technological Company «Zeosit» JSC
Novosibirsk (Russia) www.zeosit.nsc.ru
Corporate Advancement
Technical Support:
www.coalimexgroup.com
Donetsk (Ukraine), Moscow (Russia)
International RepresentationCorporate Development
www.cjagroup.ca
Toronto (Canada)